Wind energy and waves are potential sources of renewable energy. Wind turbine is used to convert wind energy and waves into electrical energy. Due to the novelty of floating wind turbines, the effective parameters in design, construction and stability have been studied in recent studies. In this research, the stability analysis of a floating barge wind turbine based on the amount of floating-point wind turbine displacement has been investigated and for this purpose, modeling has been used in FAST software. One of the important parameters in the stability of floating wind turbines is wind speed. In this research, the relationship between velocity changes with the displacement of every 6 degrees of floating freedom and the rate of cutting and the anchor of overturning have been investigated. The sensitivity of each floating motion to wind speed variation has been studied according to the timeline, displacement, baseline cutting and reversal anchor in each degree of freedom. The power density spectrum spectrum is also studied in terms of frequency for displacement, base, and reverse anchor velocity at different speeds.